Susanne Wiemann, Andreas Faissner and Jacqueline Reinhard have conducted in-depth analyses of glaucoma on a molecular level. © RUB, Kramer

Molecular Neurobiology Biomarkers facilitate early detection of glaucoma

This eye disease often leads to blindness – which might be prevented by early intervention.

Researchers at Ruhr-Universität Bochum have identified new potential biomarkers that may facilitate early detection of glaucoma in patients. Moreover, they ascertained that the mutation of a certain gene in mice causes intraocular pressure elevation. This, in turn, is one of the main risk factors for glaucoma.

The team headed by Dr. Jacqueline Reinhard and Professor Andreas Faissner from the Department of Cell Morphology and Molecular Neurobiology in Bochum, together with colleagues from the University Eye Clinic in Bochum, RWTH Aachen University, the University of Toronto and the University of Denver, has published a report on their findings. The article was released on 12 October 2018 in the online edition of the journal Molecular Neurobiology.

Specific and early intervention

The researchers bred mice in which the gene PTP-Meg2 (protein tyrosine phosphatase megakaryocyte 2) was mutated . As a result, the animals suffered from chronic intraocular pressure elevation. The team successfully demonstrated that, in their model, the intraocular pressure elevation was associated with a loss of optic nerve fibres and retinal cells. Using functional analyses, they observed that retinal cells were unable to function properly, either. Moreover, they made the following discovery: glial cells and certain components of the immune system showed a reaction in the animals’ optic nerve and retina. As both aspects may be relevant for neurodegeneration, specific and early intervention into these cellular mechanisms may inhibit glaucoma.

Testing new therapy options

Making use of a genetic screening, the researchers subsequently identified new potential biomarkers. In future, these biomarkers may facilitate early detection of glaucoma; as a result, it will be possible to start therapy at an early stage, before the optic nerve and retina are damaged. The glaucoma-mouse model may, moreover, be used to test new therapy options. Experiments to date have shown that intraocular pressure was reduced and nerve cells were retained in the mice if they were given a drug that had been administered to treat human patients.

Glaucoma

With more than 60 million patients, this eye disease is a main cause of blindness worldwide. In Germany alone, there are one million patients – and the estimated number of unknown cases is likely to be much higher, due to the fact that symptoms often remain undetected during the early stage of the disease. In glaucoma patients, the optic nerve and the retinal nerve cells are damaged beyond repair.

Funding

The German Research Foundation (DFG) financed the study under the umbrella of the project FA 159/14-1 and the Collaborative Research Centre SFB 509 TPA10. Jacqueline Reinhard was funded by the Research School (DFG: GSC 98/1) at Ruhr-Universität Bochum. Susanne Wiemann was sponsored by Konrad-Adenauer-Stiftung.

Original publication

Jacqueline Reinhard, Susanne Wiemann, Stephanie C. Joachim, Marina Renner, Julia Woestmann, Bernd Denecke, Yingchun Wang, Gregory P. Downey, Andreas Faissner: Heterozygous meg2 ablation causes intraocular pressure elevation and progressive glaucomatous neurodegeneration, in: Molecular Neurobiology, 2018, DOI: 10.1007/s12035-018-1376-2

Press contact

Dr. Jacqueline Reinhard
Department of Cell Morphology and Molecular Neurobiology
Faculty of Biology and Biotechnology
Ruhr-Universität Bochum
Phone: +49 234 32 24314
Email: jacqueline.reinhard@rub.de

Prof. Dr. Andreas Faissner
Department of Cell Morphology and Molecular Neurobiology
Faculty of Biology and Biotechnology
Ruhr-Universität Bochum
Phone: +49 0234 32 23851
Email: andreas.faissner@rub.de

Published

Thursday
25 October 2018
10:50 am

By

Raffaela Römer

Translated by

Donata Zuber

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